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      Electromagnetic Dipole Moments and Radiative Decays of Particles from Exchange of Fermionic Unparticles

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          Abstract

          We construct the propagator for a free fermionic unparticle field from basic considerations of scale and Lorentz invariance. The propagator is fixed up to a normalization factor which is required to recover the result of a free massless fermion field in the canonical limit of the scaling dimension. Two new features appear compared to the bosonic case. The propagator contains both \gamma and non-\gamma terms, and there is a relative phase of \pi/2 between the two in the time-like regime for arbitrary scaling dimension. This should result in additional interference effects on top of the one known in the bosonic case. The non-\gamma term can mediate chirality flipped transitions that are not suppressed by a light fermion mass but are enhanced by a large bosonic mass in loops, compared to the pure particle case. We employ this last feature to set stringent bounds on the Yukawa couplings between a fermionic unparticle and an ordinary fermion through electromagnetic dipole moments and radiative decays of light fermions.

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          Author and article information

          Journal
          04 April 2008
          Article
          10.1016/j.physletb.2008.06.046
          0804.0752
          d9365310-ab7e-4119-9681-64763cb74189

          http://arxiv.org/licenses/nonexclusive-distrib/1.0/

          History
          Custom metadata
          Phys.Lett.B665:356-360,2008
          10 pages, 1 figure, 2 tables
          hep-ph

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